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Entrevistamos a Barry Barish, Premio Nobel de Física 2017, por sus contribuciones decisivas al detector LIGO y la observación de las ondas gravitacionales, además de por ser Premio Princesa de Asturias de Investigación Científica y Técnica de 2027.Escuchar audio
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Remastered from our interview in May 2023 A few months ago, I had the pleasure of interviewing the Nobel Laureate, Barry Barish, for UCTV. Barry is an experimental physicist and a professor at UC Riverside. He was awarded the Nobel Prize in Physics along with Rainer Weiss and Kip Thorne for decisive contributions to the LIGO detector and the observation of gravitational waves. In our interview, Barry reflects on his life in science, being curious, experiencing imposter syndrome, and working in the field of physics. Tune in! Key Takeaways: Intro (00:00) How to get over impostor syndrome (00:40) Exploring curiosity (06:34) The art of science (11:08) The probability of a quantum theory of gravity (21:36) Would Barry visit a black hole? (26:12) Barry's origin story (30:53) Could we make an AI physicist? (42:19) Outro (46:12) — Additional resources:
Nobel Laureate and physicist Barry Barish, professor at UC Riverside, reflects on his life in science, being curious, experiencing imposter syndrome, and working in the field of physics with Brian Keating, host of the "Into the Impossible" podcast and professor of physics at UC San Diego. [Humanities] [Science] [Show ID: 38727]
Nobel Laureate and physicist Barry Barish, professor at UC Riverside, reflects on his life in science, being curious, experiencing imposter syndrome, and working in the field of physics with Brian Keating, host of the "Into the Impossible" podcast and professor of physics at UC San Diego. [Humanities] [Science] [Show ID: 38727]
Nobel Laureate and physicist Barry Barish, professor at UC Riverside, reflects on his life in science, being curious, experiencing imposter syndrome, and working in the field of physics with Brian Keating, host of the "Into the Impossible" podcast and professor of physics at UC San Diego. [Humanities] [Science] [Show ID: 38727]
Nobel Laureate and physicist Barry Barish, professor at UC Riverside, reflects on his life in science, being curious, experiencing imposter syndrome, and working in the field of physics with Brian Keating, host of the "Into the Impossible" podcast and professor of physics at UC San Diego. [Humanities] [Science] [Show ID: 38727]
Nobel Laureate and physicist Barry Barish, professor at UC Riverside, reflects on his life in science, being curious, experiencing imposter syndrome, and working in the field of physics with Brian Keating, host of the "Into the Impossible" podcast and professor of physics at UC San Diego. [Humanities] [Science] [Show ID: 38727]
Nobel Laureate and physicist Barry Barish, professor at UC Riverside, reflects on his life in science, being curious, experiencing imposter syndrome, and working in the field of physics with Brian Keating, host of the "Into the Impossible" podcast and professor of physics at UC San Diego. [Humanities] [Science] [Show ID: 38727]
The episode starts with Lexman and his manager, Barry Barish, discussing how the company is doing and discuss Lexman's recent trip to Asarabacca. Barry compliment's Lexman on his work ethic and discusses the vision that he has for the company. They then shift the conversation to Lexman's love life and Barry tells Lexman about a woman he met while honeymooning in the Virgin Islands. Barry thinks she might be perfect for Lexman and they decide to fly out to meet her. The episode concludes with Lexman and his manager meeting the woman in question, Tracy, and finding out that she
In this episode, Lexman interviews Barry Barish, a historian and writer about the history of tanneries. They discuss the evolution of the industry, the challenges and opportunities that tanneries presented, and the importance of preservation.
Barry is the Publisher of Trinidad's only English-language weekly, Tout, and a non-involvement advocate. He has written extensively on the topic, and we discuss his perspectives on non-involvement, rental models, and the imputableness of Trinidad's publishing scene.
Barry Barish is an escapee from prison and he talks about his experience and how it has affected him. He also shares his thoughts on tendonitis and swimmingness. Finally, he discusses the implications of presupposing certain things about topaz.
In this episode of Lexman Artificial, Barry Barish comes on the show to talk about quantum mechanics. They discuss the uncertainty principle, entanglement, and qubits. Barry tries to explain the concepts in layman's terms, but Lexman has a hard time understanding. In the end, they just end up making jokes and having a good time.
Manchin's Death Blow to the Biden Agenda is Not About Cost But About Stopping Alternative Energy | Manchin Criminalizes Poverty Claiming Child Tax Credits Used to Buy Drugs | A Nobel Laureate Who Signed a Letter Urging Biden to Cut the Nuclear Arsenal backgroundbriefing.org/donate twitter.com/ianmastersmedia facebook.com/ianmastersmedia
In February 2021 Dr. Barry Barish, co-recipient of the 2017 Nobel Prize in Physics for the LIGO experiment, interviewed me at his home in Los Angeles. The topic was his thoughts and reactions to my book, Losing the Nobel Prize (http://amzn.to/2sa5UpA). We discussed scientific leadership, academic stress, burnout, the role of mentors and managers in science and a lot about my book too. Losing The Nobel Prize By Brian Keating The inside story of a quest to unlock one of cosmology's biggest mysteries, derailed by the lure of the Nobel Prize. What would it have been like to be an eyewitness to the Big Bang? In 2014, astronomers wielding BICEP2, the most powerful cosmology telescope ever made, revealed that they'd glimpsed the spark that ignited the Big Bang. Millions around the world tuned in to the announcement broadcast live from Harvard University, immediately igniting rumors of an imminent Nobel Prize. But had these cosmologists truly read the cosmic prologue or, swept up in Nobel dreams, had they been deceived by a galactic mirage? In Losing the Nobel Prize, cosmologist and inventor of the BICEP (Background Imaging of Cosmic Extragalactic Polarization) experiment Brian Keating tells the inside story of BICEP2's mesmerizing discovery and the scientific drama that ensued. In an adventure story that spans the globe from Rhode Island to the South Pole, from California to Chile, Keating takes us on a personal journey of revelation and discovery, bringing to vivid life the highly competitive, take-no-prisoners, publish-or-perish world of modern science. Along the way, he provocatively argues that the Nobel Prize, instead of advancing scientific progress, may actually hamper it, encouraging speed and greed while punishing collaboration and bold innovation. In a thoughtful reappraisal of the wishes of Alfred Nobel, Keating offers practical solutions for reforming the prize, providing a vision of a scientific future in which cosmologists may, finally, be able to see all the way back to the very beginning.
In February 2021 Dr. Barry Barish, co-recipient of the 2017 Nobel Prize in Physics for the LIGO experiment, interviewed me at his home in Los Angeles. The topic was his thoughts and reactions to my book, Losing the Nobel Prize (http://amzn.to/2sa5UpA). We discussed scientific leadership, academic stress, burnout, the role of mentors and managers in science and a lot about my book too. Losing The Nobel Prize By Brian Keating The inside story of a quest to unlock one of cosmology's biggest mysteries, derailed by the lure of the Nobel Prize. What would it have been like to be an eyewitness to the Big Bang? In 2014, astronomers wielding BICEP2, the most powerful cosmology telescope ever made, revealed that they'd glimpsed the spark that ignited the Big Bang. Millions around the world tuned in to the announcement broadcast live from Harvard University, immediately igniting rumors of an imminent Nobel Prize. But had these cosmologists truly read the cosmic prologue or, swept up in Nobel dreams, had they been deceived by a galactic mirage? In Losing the Nobel Prize, cosmologist and inventor of the BICEP (Background Imaging of Cosmic Extragalactic Polarization) experiment Brian Keating tells the inside story of BICEP2's mesmerizing discovery and the scientific drama that ensued. In an adventure story that spans the globe from Rhode Island to the South Pole, from California to Chile, Keating takes us on a personal journey of revelation and discovery, bringing to vivid life the highly competitive, take-no-prisoners, publish-or-perish world of modern science. Along the way, he provocatively argues that the Nobel Prize, instead of advancing scientific progress, may actually hamper it, encouraging speed and greed while punishing collaboration and bold innovation. In a thoughtful reappraisal of the wishes of Alfred Nobel, Keating offers practical solutions for reforming the prize, providing a vision of a scientific future in which cosmologists may, finally, be able to see all the way back to the very beginning.
In February 2021 Dr. Barry Barish, co-recipient of the 2017 Nobel Prize in Physics for the LIGO experiment, interviewed me at his home in Los Angeles. The topic was his thoughts and reactions to my book, Losing the Nobel Prize (http://amzn.to/2sa5UpA). We discussed scientific leadership, academic stress, burnout, the role of mentors and managers in science and a lot about my book too. Losing The Nobel Prize By Brian Keating The inside story of a quest to unlock one of cosmology's biggest mysteries, derailed by the lure of the Nobel Prize. What would it have been like to be an eyewitness to the Big Bang? In 2014, astronomers wielding BICEP2, the most powerful cosmology telescope ever made, revealed that they'd glimpsed the spark that ignited the Big Bang. Millions around the world tuned in to the announcement broadcast live from Harvard University, immediately igniting rumors of an imminent Nobel Prize. But had these cosmologists truly read the cosmic prologue or, swept up in Nobel dreams, had they been deceived by a galactic mirage? In Losing the Nobel Prize, cosmologist and inventor of the BICEP (Background Imaging of Cosmic Extragalactic Polarization) experiment Brian Keating tells the inside story of BICEP2's mesmerizing discovery and the scientific drama that ensued. In an adventure story that spans the globe from Rhode Island to the South Pole, from California to Chile, Keating takes us on a personal journey of revelation and discovery, bringing to vivid life the highly competitive, take-no-prisoners, publish-or-perish world of modern science. Along the way, he provocatively argues that the Nobel Prize, instead of advancing scientific progress, may actually hamper it, encouraging speed and greed while punishing collaboration and bold innovation. In a thoughtful reappraisal of the wishes of Alfred Nobel, Keating offers practical solutions for reforming the prize, providing a vision of a scientific future in which cosmologists may, finally, be able to see all the way back to the very beginning. Learn more about your ad choices. Visit megaphone.fm/adchoices
In February 2021 Dr. Barry Barish, co-recipient of the 2017 Nobel Prize in Physics for the LIGO experiment, interviewed me at his home in Los Angeles. The topic was his thoughts and reactions to my book, Losing the Nobel Prize (http://amzn.to/2sa5UpA). We discussed scientific leadership, academic stress, burnout, the role of mentors and managers in science and a lot about my book too. Losing The Nobel Prize By Brian Keating The inside story of a quest to unlock one of cosmology's biggest mysteries, derailed by the lure of the Nobel Prize. What would it have been like to be an eyewitness to the Big Bang? In 2014, astronomers wielding BICEP2, the most powerful cosmology telescope ever made, revealed that they'd glimpsed the spark that ignited the Big Bang. Millions around the world tuned in to the announcement broadcast live from Harvard University, immediately igniting rumors of an imminent Nobel Prize. But had these cosmologists truly read the cosmic prologue or, swept up in Nobel dreams, had they been deceived by a galactic mirage? In Losing the Nobel Prize, cosmologist and inventor of the BICEP (Background Imaging of Cosmic Extragalactic Polarization) experiment Brian Keating tells the inside story of BICEP2's mesmerizing discovery and the scientific drama that ensued. In an adventure story that spans the globe from Rhode Island to the South Pole, from California to Chile, Keating takes us on a personal journey of revelation and discovery, bringing to vivid life the highly competitive, take-no-prisoners, publish-or-perish world of modern science. Along the way, he provocatively argues that the Nobel Prize, instead of advancing scientific progress, may actually hamper it, encouraging speed and greed while punishing collaboration and bold innovation. In a thoughtful reappraisal of the wishes of Alfred Nobel, Keating offers practical solutions for reforming the prize, providing a vision of a scientific future in which cosmologists may, finally, be able to see all the way back to the very beginning. Learn more about your ad choices. Visit megaphone.fm/adchoices
Barry Barish is the Linde Professor of Physics, Emeritus, at Caltech and faculty member at UC Riverside. He became director of the LIGO (Laser Interferometer Gravitational-Wave Observatory) project in 1997. In 2017, he was awarded the Nobel Prize in Physics along with Rai Weiss and Kip Thorne and their teams “for decisive contributions to the LIGO detector and the observation of gravitational waves.” Before joining the LIGO experiment, he worked on the Superconducting Super Collider, the high-profile particle accelerator that was canceled by Congress in 1993. He has many other awards, is a member of the National Academy of Sciences, and served as president of the American Physical Society in 2011. Barry is a consummate scientist. He has the hands-on technical expertise, the interpersonal skills to motivate and lead, and the scientific discipline to know when to quit and went to double down. Available on Amazon: Think Like a Nobel Prize Winner About Professor Brian Keating: https://www.youtube.com/drbriankeating Podcast in iTunes https://simonsobservatory.org/ https://briankeating.com/ https://bkeating.physics.ucsd.edu/ https://www.linkedin.com/in/drbriankeating/
Rai Weiss is a professor emeritus at MIT, where he also earned his undergraduate degree and PhD. He, along with Barry Barish and Kip Thorne, won the 2017 Nobel Prize in Physics “for decisive contributions to the LIGO detector and the observation of gravitational waves,” work that was completed with the rest of their team of more than a thousand scientists, engineers, technicians, and managers. He has won numerous awards for his pioneering work on both the COBE (NASA's Cosmic Background Explorer) and LIGO (Laser Interferometer Gravitational-Wave Observatory) projects. He is a member of the National Academy of Sciences, the American Physical Society, and many other professional societies. Weiss is a charming and consummate storyteller. His playful exuberance is incandescent. And I appreciate how forthright he is, as I think it is important to talk about the business of large projects and admit to the shortcomings rather than only discussing them with reverent worshipful praise. I admire that Weiss is relentlessly passionate even into his eighties. Just as a black hole shakes up space-time every few years, Weiss continues to pivot and switch direc- tion himself. It's impossible not to think that this tendency has been responsible for his continued fertility of mind. He is a big-picture thinker that loves to keep things fresh by shaking himself out of complacency. Available on Amazon: Think Like a Nobel Prize Winner About Professor Brian Keating: https://www.youtube.com/drbriankeating Podcast in iTunes https://simonsobservatory.org/ https://briankeating.com/ https://bkeating.physics.ucsd.edu/ https://www.linkedin.com/in/drbriankeating/
Barry Barish is a theoretical physicist at Caltech and the winner of the Nobel Prize in Physics. Please support this podcast by checking out our sponsors: – MUDWTR: https://mudwtr.com/lex and use code LEX to get 5% off – GiveDirectly: https://givedirectly.org/lex to get gift matched up to $300 – BiOptimizers: http://www.magbreakthrough.com/lex to get 10% off – Four Sigmatic: https://foursigmatic.com/lex and use code LexPod to get up to 60% off – Magic Spoon: https://magicspoon.com/lex and use code LEX to get $5 off EPISODE LINKS: Barry's Nobel Prize entry: https://www.nobelprize.org/prizes/physics/2017/barish/facts/ Barry's Caltech profile: https://pma.caltech.edu/people/barry-c-barish LIGO's Website: https://www.ligo.caltech.edu/ LIGO's Twitter: https://twitter.com/LIGO PODCAST INFO: Podcast
In this podcast episode, Lawrence Krauss reconnects with an old friend and Nobel Prize recipient, Barry Barish. They discuss a wide range of topics and explore Barry's own history as well as the history, present, and future of experimental physics. Barry Barish is an American experimental physicist and Nobel Laureate. He is a Linde Professor of Physics, emeritus at California Institute of Technology and a leading expert on gravitational waves. In 2017, Barish was awarded the Nobel Prize in Physics along with Rainer Weiss and Kip Thorne "for decisive contributions to the LIGO detector and the observation of gravitational waves". In 2018, he joined the faculty at University of California, Riverside, becoming the university's second Nobel Prize winner on the faculty. iTunes: https://podcasts.apple.com/us/podcast/the-origins-podcast/id1467481703 Website: https://www.originsprojectfoundation.org/ Twitter: https://twitter.com/OriginsProject Instagram: https://www.instagram.com/originsprojectfoundation/ Facebook: https://www.facebook.com/OriginsProject/ The Origins Podcast, a production of The Origins Project Foundation, features in-depth conversations with some of the most interesting people in the world about the issues that impact all of us in the 21st century. Host, theoretical physicist, lecturer, and author, Lawrence M. Krauss, will be joined by guests from a wide range of fields, including science, the arts, and journalism. The topics discussed on The Origins Podcast reflect the full range of the human experience - exploring science and culture in a way that seeks to entertain, educate, and inspire.
Harvard's Dr. Delilah Gates joins to discuss the fascinating & foreboding subject of black holes! Black holes are mysterious objects that have perplexed humanity for centuries, yet Delilah reveals new perspectives on their most inscrutable properties via in-depth studies of their spins, entropy, event horizons & more. Dr. Delilah Gates is Harvard's second African American woman to receive a Ph.D. in physics. Before joining Harvard, she earned two Bachelors of Science degrees: one in physics and one in math, from the University of Maryland, College Park. She studies high-spin black holes and gravity working to analytically characterize observational signatures of near extremal Kerr black holes using the emergent near-horizon conformal symmetry. Her interests include (near) extremal black hole geometries, black hole binaries, AdS/CFT correspondence, and black hole entropy. Find her on the web at https://bhi.fas.harvard.edu/people/delilah-gates Thanks to our sponsor! http://betterhelp.com/impossible Stay tuned for a 45 minute technical talk from Delilah soon. 00:00 Introduction 01:00 The Most Fascinating Thing 01:42 Could black holes be dark matter? 02:00 Crash Course: Black Hole History 05:00 The Information Loss Paradox 06:27 The Holographic Principle 09:00 Can you create a Black Hole in the Lab? 11:00 What's a Black Hole made of? 12:50 Are black holes primordial? 13:00 Are some black holes primordial, created in the Big Bang? 14:15 The Black Hole Diet? 14:30 Spaghettification! 15:30 Growing up and becoming a PhD student 20:00 The Nobel Prize, Barry Barish, Albert Einstein, and the Imposter Syndrome! 23:00 Happy Father's Day to Prof. S. James Gates Watch my interview with Jim Gates (Delilah's dad) Jim Gates: Proving Einstein RIGHT! The daring expedition that changed how we look at the Universe! https://www.youtube.com/watch?v=UzY4nwulC6E Please join my mailing list to get resources and enter giveaways to win a FREE copy of my book Losing the Nobel Prize: http://briankeating.com/mailing_list.php
Barry Barish is an emeritus professor at Caltech, where he has worked since 1963. He became director of the LIGO (Laser Interferometer Gravitational-wave Observatory) project in 1997, which led to his Nobel Prize in 2017. He has many other awards and is a fellow of the National Academy of Sciences and American Physical Society, of which he was also president. Barry joins our Nobel Minds playlist on the INTO THE IMPOSSIBLE podcast. He shared the 2017 Nobel Prize in Physics with Rai Weiss and Kip Thorne “for decisive contributions to the LIGO detector and the observation of gravitational waves.” We discuss Barry’s long and remarkable career that covers many disciplines within physics. It’s not the standard model, but he has a confidence about himself, and his contributions that make it seem perfectly natural to have been part of such varied, noteworthy projects during his career. Despite that, Barry also admits to feeling like an imposter at times, especially when singing the same Nobel register as Einstein. What a moment! 00:00:00 Introduction 00:03:55 Starting out at Cal Tech with long time collaborator Kip Thorne. 00:11:47 Changing from particle physics to gravity astronomy. Change or stagnate! 00:17:13 Was the sad demise of the US supercollider really fortuitous? 00:20:00 How did the discovery of the Higgs Boson by CERN make you feel? 00:22:07 What detector technology enabled the discovery of the Higgs Boson? 00:23:00 What fascinates Barry the most about gravity astronomy? 00:27:50 The feedback cycle between theory and experiment 00:28:45 Does there need to be a unified theory of everything? 00:29:54 Can/will LIGO detect primordial gravitational waves? 00:37:40 What is your philosophy of experimental science? When do you stop an experiment? Why peer review is too conservative. 00:41:00 What skill sets can be applied from one branch of science to another? Lessons from the Lockheed Martin Skunk Works, and Managing big projects. Change Management. 00:57:45 How Barry began in particle physics at Berkley. How students learn today. 01:03:45 What is your vision for the future of LIGO? 01:10:10 What would most like to leave as an ethical will for future generations? 01:13:45 About curiosity 01:14:50 What have you accomplished that you once thought was impossible? Brian Keating’s most popular Youtube Videos: Eric Weinstein: https://youtu.be/YjsPb3kBGnk?sub_confirmation=1 Jim Simons: https://youtu.be/6fr8XOtbPqM?sub_confirmation=1 Noam Chomsky: https://youtu.be/Iaz6JIxDh6Y?sub_confirmation=1 Sabine Hossenfelder: https://youtu.be/V6dMM2-X6nk?sub_confirmation=1 Sarah Scoles: https://youtu.be/apVKobWigMw Stephen Wolfram: https://youtu.be/nSAemRxzmXM Host Brian Keating: ♂️ Twitter at https://twitter.com/DrBrianKeating Instagram at https://instagram.com/DrBrianKeating Learn more about your ad choices. Visit megaphone.fm/adchoices
Eric Weinstein joins me live to take your questions about the past, present and future of physics. We’ll discuss my recent chats with Lenny Susskind, Shelly Glashow, and Barry Barish and Eric’s recent podcasts with Lex Fridman too. Eric and Stephen Wolfram: https://www.youtube.com/watch?v=OI0AZ4Y4Ip4?sub_confirmation=1 Join us in the chat room to ask questions! Previously featured: Eric Weinstein: https://youtu.be/YjsPb3kBGnk?sub_confirmation=1 Join my mailing list: http://briankeating.com/mailing_list.php Podcast mentioned: The Black Hole War: My Battle with Stephen Hawking to Make the World Safe for Quantum Mechanics https://www.youtube.com/watch?v=YJUskAl8mzw?sub_confirmation=1 Subscribe for new interviews with Sheldon Glashow, Barry Barish, Cumran Vafa and more! Brian Keating’s most popular Youtube Videos: Eric Weinstein: https://youtu.be/YjsPb3kBGnk?sub_confirmation=1 Jim Simons: https://youtu.be/6fr8XOtbPqM?sub_confirmation=1 Noam Chomsky: https://youtu.be/Iaz6JIxDh6Y?sub_confirmation=1 Sabine Hossenfelder: https://youtu.be/V6dMM2-X6nk?sub_confirmation=1 Sarah Scoles: https://youtu.be/apVKobWigMw Stephen Wolfram: https://youtu.be/nSAemRxzmXM Host Brian Keating: ♂️ Twitter at https://twitter.com/DrBrianKeating Instagram at https://instagram.com/DrBrianKeating Buy my book LOSING THE NOBEL PRIZE: http://amzn.to/2sa5UpA Subscribe for more great content https://www.youtube.com/DrBrianKeating?sub_confirmation=1 ✍️Detailed Blog posts here: https://briankeating.com/blog.php Join my mailing list: http://briankeating.com/mailing_list.php Join my Facebook Group: https://facebook.com/losingthenobelprize ️Please subscribe, rate, and review the INTO THE IMPOSSIBLE Podcast on iTunesA production of http://imagination.ucsd.edu/ Learn more about your ad choices. Visit megaphone.fm/adchoices
U ovom specijalu Radio Galaksije donosimo eksluzivni intervju sa slavnim američkim naučnikom Berijem Berišem, jednim od najcenjenijih imena moderne svetske nauke, dobitnikom Nobelove nagrade za fiziku 2017. godine. Beri Beriš je direktor međunarodnog projekta LIGO koji je 2015. godine, prvi put u istoriji nauke, detektovao gravitacione talase i time otvorio sasvim novu oblast u istraživanje svemira - gravitacionu astronomiju. Razgovor sa profesorom Berišem dolazi u trenutku kada se veliki gravitacioni detektori ubrzano planiraju, i kada je naučna javnost uzbuđeno dočekala otkriće najjačeg sudara dve crne rupe u svemiru. Sa Berijem Berišem, pričali smo o budućnosti istraživanja gravitacije, ali i o tome kako izgleda život modernog naučnika, zašto je u nauci pogrešno promovisati sindrom “genija”, zašto “biti naučnik” nije dovoljno ukoliko ne znamo da komuniciramo svoja otkrića, i na koji način treba voditi veliki međunarodni tim ljudi na putu ka uspehu. Intervju je vođen u Trstu, u Italiji, tokom posete profesora Beriša institutu za kosmologiju i astrofiziku.Autor ove epizode, od A do Š, je Darko Donevski.
Barry Barish är en amerikansk experimentalfysiker som 2017 som tilldelades Nobelpriset i Fysik tillsammans med Rainer Weiss och Kip Thorne för sitt arbete med gravitationsvågor. I detta avsnitt av podden berättar han brett om allt från sin forskning inom fysiken, vikten av att vara nyfiken och sin personliga relation till Richard Feynman.
We explore the history of the discovery of gravitational waves with Rai Weiss, including the relevance to special and general relativity, pulsars, supernovae, merging and binary black holes, space and time, neutron star collisions, dark matter, cosmic background radiation, gamma ray bursts, and even the viscosity of neutrinos. We also discuss really small numbers, the origin of the NSF and NASA, the LIGO scientific collaboration, the politics of science, and what all this has to do with Albert Einstein. Rai received his PhD at MIT in 1962, and taught at Tufts University and Princeton before returning to MIT. Among Rai’s many distinguished awards is the 2017 Nobel Prize in Physics, which he received along with Kip Thorne and Barry Barish “for decisive contributions to the LIGO detector and the observation of gravitational waves.”
Sean Carroll's Mindscape: Science, Society, Philosophy, Culture, Arts, and Ideas
I remember vividly hosting a colloquium speaker, about fifteen years ago, who talked about the LIGO gravitational-wave observatory, which had just started taking data. Comparing where they were to where they needed to get to in terms of sensitivity, the mumblings in the audience after the talk were clear: “They’ll never make it.” Of course we now know that they did, and the 2016 announcement of the detection of gravitational waves led to a 2017 Nobel Prize for Rainer Weiss, Kip Thorne, and Barry Barish. So it’s a great pleasure to have Kip Thorne himself as a guest on the podcast. Kip tells us a bit about he LIGO story, and offers some strong opinions about the Nobel Prize. But he’s had a long and colorful career, so we also talk about whether it’s possible to travel backward in time through a wormhole, and what his future movie plans are in the wake of the success of Interstellar. Kip Thorne received his Ph.D. in physics from Princeton University, and is now the Richard Feynman Professor of Theoretical Physics (Emeritus) at Caltech. Recognized as one of the world’s leading researchers in general relativity, he has done important work on gravitational waves, black holes, wormholes, and relativistic stars. His role in helping found and guide the LIGO experiment was recognized with the Nobel Prize in 2017. He is the author or co-author of numerous books, including a famously weighty textbook, Gravitation. He was executive producer of the 2014 film Interstellar, which was based on an initial concept by him and Lynda Obst. He’s been awarded too many prizes to list here, and has also been involved in a number of famous bets. Caltech page Wikipedia page Nobel Prize citation Nobel Lecture Amazon.com author page Internet Movie Database page
Comparto con vosotros en este episodio parte de mi experiencia como asistente a la I Cumbre de Economía Circular e Innovación que se celebró en Madrid el 6 de julio de 2018 y donde he tenido el lujazo de escuchar a ponentes como Barack Obama, los premios Nobel de Economía sir Cristopher Pissarides y Finn Kydland y el de física Barry Barish que tuvo una charla muy interesante con el experto en educación Richard Gerver. Es mucha la información que recibí y aquí puedo contaros un poquito. Seguiré compartiendo por otros medios.
Dr. Kenneth Ford is Founder and Chief Executive Officer of the Florida Institute for Human & Machine Cognition (IHMC), a research institute that is home to world-class scientists and engineers focused on building technology that extends human cognition, perception, locomotion and resilience. He received his Ph.D. in Computer Science from Tulane University and is the author of hundreds of scientific papers and six books, with interests in an array of areas including artificial intelligence, cognitive science, and human performance under extreme conditions. Ken is also co-host to the popular and respected STEM-Talk podcast which recently won first place in the 12th Annual People’s Choice Podcast Awards in the Science and Medicine category. Many leaders in the areas of health and exercise physiology appear on STEM-talk, with a focus on the scientific elements behind extending human longevity and performance. Ken is here with us today to talk about some current projects at IHMC, artificial intelligence, ketosis, and his favorite cutting-edge training methods. Here’s the outline of this interview with Ken Ford: [00:04:16] Episode 49 of STEM-Talk, first place People's Choice Awards in the Science and Medicine category. [00:06:43] Current projects. [00:07:10] Dr. James Allen, World Modelers. [00:08:54] Economic modeling, weather modeling for crop failure. [00:09:45] Cognitive orthotics. [00:10:36] Dr. Dawn Kernagis, brain glymphatic system. Podcast: Human Performance and Resilience in Extreme Environments. [00:11:52] Artificial gravity. [00:12:34] The double secret selection committee. [00:13:56] Extending human capabilities. [00:16:35] Locomotion for paraplegics. [00:17:31] Humans in extreme environments. [00:19:51] Space flight and aging. [00:20:41] Few rules but strong culture and a flat organisational structure. [00:22:07] Growth mindset. [00:22:41] Choosing people rather than an agenda. [00:28:09] Fostering a network of friends and experts. [00:28:46] Barry Barish, STEM-talk Episode 10. [00:31:37] Understanding the limits of knowledge. [00:32:47] Do the big tech companies have too much power? [00:35:51] EU 2.5$ penalty for Google. [00:36:45] Google D.C. influence operation. [00:38:36] Duckduckgo. [00:39:10] The term artificial intelligence. [00:42:41] The danger of a superhuman AI. [00:44:21] HAL 9000. [00:45:09] Dropped a physics. [00:45:58] Driverless cars. [00:51:52] Ketogenic diet. [00:53:23] The benefits of ketones. [00:53:55] Signalling functions of beta hydroxybutyrate (BHB) and acetoacetate. [00:54:26] Study: Shimazu, Tadahiro, et al. "Suppression of oxidative stress by β-hydroxybutyrate, an endogenous histone deacetylase inhibitor." Science 339.6116 (2013): 211-214. [00:55:11] Study: Newman, John C., et al. "Ketogenic diet reduces midlife mortality and improves memory in aging mice." Cell metabolism 26.3 (2017): 547-557. [00:55:57] Study: Sleiman, Sama F., et al. "Exercise promotes the expression of brain derived neurotrophic factor (BDNF) through the action of the ketone body β-hydroxybutyrate." Elife 5 (2016). [00:57:03] Study: Roberts, Megan N., et al. "A ketogenic diet extends longevity and healthspan in adult mice." Cell metabolism 26.3 (2017): 539-546. [00:58:03] Podcast: Why Your Diet Isn’t Working: Undereating and Overtraining, with Megan Roberts. [00:58:24] Podcast: The Keto Masterclass with Robb Wolf. [00:59:38] Virta Health, results with 0.5 - 1 mmol/L of BHB. [01:00:11] Study: Shimazu, Tadahiro, et al. "Suppression of oxidative stress by β-hydroxybutyrate, an endogenous histone deacetylase inhibitor." Science 339.6116 (2013): 211-214. [01:01:01] Study: Cunnane, Stephen C., et al. "Can ketones compensate for deteriorating brain glucose uptake during aging? Implications for the risk and treatment of Alzheimer's disease." Annals of the New York Academy of Sciences 1367.1 (2016): 12-20. [01:02:53] Exogenous ketones. [01:05:26] Exercise. [01:06:33] Hierarchical sets. [01:07:11] Art DeVany. [01:08:17] Episode 30 of STEM-Talk. [01:10:15] Eccentric movements. [01:10:41] Study: Schoenfeld, Brad J., et al. "Hypertrophic effects of concentric vs. eccentric muscle actions: a systematic review and meta-analysis." The Journal of Strength & Conditioning Research 31.9 (2017): 2599-2608. [01:13:37] Blood flow restriction training. [01:14:41] Episode 34 of STEM-Talk. [01:16:31] Dr. Jim Stray-Gundersen, Dr. Adam Anz. [01:18:13] Kaatsu and Go B Strong (discount code: IHMC). [01:18:43] Vibration platform training. [01:19:16] Power Plate. [01:21:12] Electrical muscle stimulation (EMS). [01:22:56] PowerDot. [01:26:41] Kettlebells. [01:27:04] Pavel Tsatsouline. [01:28:21] Strong First, Coaches Mark Reifkind and Tracy Reifkind. [01:29:15] Why not cardio? [01:30:36] Zoo humans. Book: The Human Zoo: A Zoologist’s Classic Study of the Urban Animal, by Desmond Morris [01:32:12] Study: Fain, Elizabeth, and Cara Weatherford. "Comparative study of millennials' (age 20-34 years) grip and lateral pinch with the norms." Journal of Hand Therapy 29.4 (2016): 483-488. [01:34:56] Don't be normal. [01:38:07] Finding versus inventing a purpose. [01:41:45] Cal Newport. [01:43:19] IHMC.us newsletter.
El Premio Nobel de Física 2017 fue otorgado a Rainer Weiss, Kip Thorne y Barry Barish por sus contribuciones a la tecnología que permitió el descubrimiento de las ondas gravitacionales en 2015. Pero qué son estas ondas gravitacionales predichas por Albert Einstein hace un siglo y cuál es la importancia de este descubrimiento.
Nicolás Guerschberg celebra el Premio Nobel de Física 2017, otorgado a Rainer Weiss, Kip Thorne y Barry Barish, científicos que lograron probar la existencia de ondas gravitacionales, comprobando la predicción de Albert Einstein en su Teoría de la Relatividad General. El Maestro G le comenta a Pipi Piazzolla la relación de este tema con la composición, y recuerda ejemplos de físicos fuertemente ligados a la música. Violinista desde su infancia, el propio Einstein. Pianista, Werner Karl Heisenberg, el físico alemán inspirador además del álter ego de Walter White en la serie Breaking Bad. Guitarrista, compositor y vocalista, Brian May, quien llegó a doctorarse en Astrofísica. Playlist: Partitas para violín solo, de Johann Sebastian Bach; Divertimento para cuerdas, de Béla Bartok; Bohemian Rhapsody, Queen
Albert Einstein ennusti sata vuotta sitten, että gravitaatioaaltoja on olemassa. Noihin aikoihin heräsi kuitenkin epäilys, ettei niitä voida havaita. Useita vuosikymmeniä vienyt kehitys- ja tutkimusrupeama johti lopulta siihen, että gravitaatioaalto havaittiin ensimmäisen kerran syyskuussa 2015 Yhdysvalloissa LIGO-hankkeessa, jossa hyvin heikko gravitaatioaallon signaali havaitaan laser-interferometrian avulla. Kyseinen aalto oli peräisin kahden mustan aukon törmäämisestä kaukana avaruudessa. Nyt palkittavat fyysikot Rainer Weiss, Barry Barish ja Kip Thorne ovat olleet ratkaisevassa asemassa LIGO-hankkeessa. Ensimmäisen gravitaatioaaltohavainnon jälkeen on tehty kolme uuttakin havaintoa, niistä viimeisin julkistettiin vasta hiukan yli viikko sitten. Fysiikan Nobeliin johtaneesta gravitaatioaaltotutkimuksesta ja sen merkityksestä ovat haastateltavana professori Kari Enqvist ja dosentti Hannu Kurki-Suonio Helsingin yliopistosta. Ohjelman loppupuolella vilkaistaan lokakuun tähtitaivaalle, joka pilvettöminä öinä tarjoilee planeettoja ja hohtavan Linnunradan. Orionidien tähdenlentoparvi lentää lokakuussa ja sen maksimi osuu 21. päivään. Haastateltavana on professori Markku Poutanen. Ohjelman toimittaa Sisko Loikkanen.
As you may already know, yesterday, the Nobel Prize in Physics, 2017 was announced: it went to Kip Thorne, Barry Barish, and Rainer Weiss for their contributions towards the LIGO collaboration that detected gravitational waves. In this special episode, I'll talk a little bit about the history of the Nobel prizes, explain what they were looking for at LIGO, how they found it, and what it means. So if you ever wondered what a gravitational wave was but were too afraid to ask, hopefully, it'll help you out. Stay tuned at the end for a marathon housekeeping session where I once again appeal for listener questions.
Ha sido uno de los grandes descubrimientos científicos del siglo: el 14 de septiembre de 2015, por primera vez, el observatorio LIGO fue capaz de captar un pulso de ondas gravitacionales, una vibración del propio espacio-tiempo. Desde ese mismo momento toda la comunidad sabía que los promotores de este experimento eran firmes candidatos al Premio Nobel, y ha ocurrido sólo dos años después: Rainer Weiss, Barry Barish y Kip Thorne han conseguido el Nobel de Física. En este capítulo trataremos de explicar qué es una onda gravitacional, cómo podemos imaginar esas oscilaciones del propio tejido del espacio-tiempo. Si os interesan las ondas gravitacionales en La Brújula de la Ciencia hemos hablado varias veces sobre ellas. Escuchad los capítulos s02e27, s05e23, s07e10, s05e16 y s03e25. Buscad también un par de audios de Alberto Aparici sobre ondas gravitacionales en el programa Más de Uno y en las noticias de Antena 3. Este programa se emitió originalmente el 3 de octubre de 2017. Podéis escuchar el resto de audios de La Brújula en su canal de iVoox y en la web de Onda Cero, ondacero.es
The Nobel Prize in Physics was awarded today to Rainer Weiss, Barry Barish and Kip Thorne for their contributions to the LIGO detector and the observation of gravitational waves.
Just hours before the announcement is made in Stockholm, award winning professor, activist, and (as of this episode's release)Nobel Laureate Barry Barish sits down with Kevin and talks about the discovery of gravitational waves from massive colliding black holes billions of miles away.
In many respects, Barry Barish is the quintessential scientist: soft-spoken and modest, he is also completely dedicated to the pursuit of pure science. Barish is currently the Linde professor of physics at Caltech. He’s a leading expert on gravitational waves, and his leadership and advocacy to the National Science Foundation about the need for LIGO (laser interferometer gravitational wave observatory) played a key role in convincing the NSF to fund it. Barish was the principal investigator of LIGO in 1994, before becoming its director in 1997. The pay-off of Barish’s effort and the NSF decision was huge: Last February, Barish and other scientists announced to the world that they had detected gravitational waves four months before, marking the first ever direct detection since Albert Einstein predicted the existence of gravitational waves in 1916. The proof came via a chirping sound—played below in this interview—which was the sound-wave translation of the merger of two black holes more than a billion light years away. Barish talks to STEM-Talk host Dawn Kernagis and co-host and IHMC Director Ken Ford about the history of Einstein’s theory and the science that later ensued to set up this significant discovery. He also talks about the scientists who made it happen. Barish gave an IHMC lecture in 2009 entitled “Einstein’s Unfinished Symphony: Sounds from the Distant Universe” Here is a link to the LIGO press conference on the gravitational waves detection: https://cds.cern.ch/record/2131411 1:36: Audio of “the chirp” signaling the detection of a gravity wave emanating from two black holes merging one billion light years away. 2:57: Ford reads a five-star iTunes review from CCPABC: “Love the science-based discussions, which also includes the interviewers, who also know and understand science, a rarity amongst podcast hosts. Love the funny comments along the way. For example, “Stay curious my friends.” And “Walk into a Walmart to see epigenetics at work.” Outlines (show notes) are also helpful for those of us who want to listen to specific sections again for better understanding.” 3:37: Dawn recaps Barish’s career, calling him a “leading light in several areas of physics.” 4:04: In October 2002, Barish was nominated by President George W. Bush to serve on the National Science Board of the NSF. Ford was also on the board. “We immediately connected and worked on the NSB for six years,” Ford said. 5:15: Barish discusses his upbringing and initial interest in science. Born in Omaha, Nebraska, to parents who had not gone to college, Barish said, “I was probably a scientist before I knew it.” The first science question he asked his father was why ice cubes float on water. His father’s answer didn’t satisfy him. “His answers never satisfied me, which I think is kind of the scientific mind.” 6:36: Ford, Kernagis and Barish recall one of their first scientific questions on why the sky is blue. 7:20: Barish grew up around Hollywood, California. “The furthest horizon I could see was Caltech, and that is where I thought I would go to college.” He went to Berkeley instead because he could start mid-year there, and he immediately fell in love with it — and a young girl. 8:55: Barish started as an engineering student, but he liked neither his surveying course nor his engineering drafting course. “By default, I ended up in physics. It’s where I belonged because physics has been great for me.” 11:15: In 1905, Einstein discovered: E=mc^2; and the theory of special relativity: “These solved some long-standing problems in physics in no time at all.” 11:42: In 1915, Einstein came up with the theory of general relativity, which was an extension of the theory of special relativity that added accelerations instead of just velocities. 13:30: In Newton’s theory of gravity, there’s instantaneous action at a distance: When the apple falls, you see it immediately. When something happens in space (a star collapse...
Barry Barish discusses “The Quest for Gravitational Waves”. Barish is the Ronald and Maxine Linde Professor of Physics, Emeritus at Caltech.